US1970084A - Electrical resistance thermometer - Google Patents

Electrical resistance thermometer Download PDF

Info

Publication number
US1970084A
US1970084A US559601A US55960131A US1970084A US 1970084 A US1970084 A US 1970084A US 559601 A US559601 A US 559601A US 55960131 A US55960131 A US 55960131A US 1970084 A US1970084 A US 1970084A
Authority
US
United States
Prior art keywords
wire
alloy
electrical
resistance
platinum
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US559601A
Inventor
Feussner Otto
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
WC Heraus GmbH and Co KG
Original Assignee
WC Heraus GmbH and Co KG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by WC Heraus GmbH and Co KG filed Critical WC Heraus GmbH and Co KG
Application granted granted Critical
Publication of US1970084A publication Critical patent/US1970084A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • GPHYSICS
    • G01MEASURING; TESTING
    • G01KMEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
    • G01K7/00Measuring temperature based on the use of electric or magnetic elements directly sensitive to heat ; Power supply therefor, e.g. using thermoelectric elements
    • G01K7/16Measuring temperature based on the use of electric or magnetic elements directly sensitive to heat ; Power supply therefor, e.g. using thermoelectric elements using resistive elements
    • G01K7/18Measuring temperature based on the use of electric or magnetic elements directly sensitive to heat ; Power supply therefor, e.g. using thermoelectric elements using resistive elements the element being a linear resistance, e.g. platinum resistance thermometer

Definitions

  • My invention relates to alloys, and more particularly to-alloys suitable to be used as a material for the resistance wires of electrical thermometers.
  • the temperature-coefiicient of the electrical conductivity of the resistance wire is of a constant value in every wire manufactured for the present purpose. It is known, that of all metals platinum is to be preferred as a material for no resistance wires which serve for the electrical measurement of temperatures, this metal being far'superior to others as regards the degree ofpurity attainable in-a wire as well as regards the possibility of exactly reproducing the electrical properties of a wire in all other piecesof wire to be manufactured. This makes possible the substitution of one wire for another.
  • Platinum however, has the disadvantage, that it is possessed of certain properties which freso quently prevent its use in the form of a resistance wire for electrical thermometers.
  • a drawback in this respect there may be mentioned in the first place the high price of platinum which necessitates to use resistance wires with a diam as eter as small as possible in order to reduce the amount of platinum to a minimum.
  • the strength of the current which may be passed through the wire and therewith through the measuring into strument' will be limited and in addition to this, an increase of temperature may easily arise at other parts of the instrument, this increase of temperature being a cause for wrong indications of the instrument.
  • thermometers with a platinum wire asresistance element are being widely used in practice and for this very reason alone it will be greatly desirable to have a resistance wire which consists of some cheaper material perrritting insertion of the wire into all types of existing thermometers and to fully retain the thermometer which had originally been calibrated on the basis of a resistance wire of platinum.
  • Another possibility of attaining the desired goal consists in using resistance wires of alloys having 105 a temperature-'coemcient which is equal to the temperature-coeficient of the platinum throughout the range of temperatures which come into consideration A resistance wire made or an alloy of this kind may immediately be used in; no
  • the aforementioned goal may he arrived at by providing an alloy having components which fulfill a number of conditions.
  • care must be taken that the components of the alloy in their chosen proportion are completely miscible with each other, that is to say, that said components form miscible crystals;
  • the distance between the solidus and liquidus melting curves must be as small as possible, and, besides, the curve must be of a conformation indicating that the constituency of the primary crystallization diifers as little as possible from the constituency of the remainder of the fused material.
  • the components of the alloy must be distinguished by the property that diffusion between the components takes place as easily and as quickly as possible.
  • alloys which are possessed of a, temperature-coeflicient which is constant within wide limits during one and the same process of fusing and which, in addition, is also practically constant during transit from one to another process of fusing.
  • the alloy in order to be suitable for the present purpose viz: to serve as a resistance wire for electrical thermometers consist to the greatest extent of a single component to which the other, additional components are added in the necessary quantities.
  • the amount of gold is not greater than 10% of the entire alloy. It is desirable to use said other or additional components in quantities not substantially greater than 10% of the entire alloy, because in this case the formation of the alloy will take place relatively easily. From the above, it will be seen that the silver is always by far the major part of the alloy.
  • the gold is not substantially more than 10%, and the other metals not more than 10% of the .entire alloy. Thus the gold is between about 10/90 and OAS/99.54 of the silver.
  • the other metals are between 0 and about 10% of the entire alloy. For this reason it is preferable to use as the main component of the alloy an element which according to the present state of the art may easily be produced in condition of greatest purity.
  • the term wire as used herein, is not intended to be limited to a metal piece having any'particular shape of cross-section.
  • An electrical resistance element of an electrical resistance thermometer said element being in the form of a wire composed of an alloy having an electrical conductivity similar to that of metallic platinum at various given temperatures within the temperature range for which the thermometer is calibrated, such resistance wire being formed of an alloy containing silver and gold as its characteristic constituents, in which the ratio of silver to gold is between 90:10 and 99.541046, any metals other than silver and gold in said resistance wire being below 10% of the whole alloy.
  • An electrical resistance element of an electrical resistance thermometer said element being in the form of a wire composed of an alloy having electrical conductivities similar to that of metallic platinum at various given temperatures within the temperature range for which the thermometer is calibrated, such resistance wire being formed of an alloy containing silver and gold alloy as its characteristic constituent in which alloy the silver and gold together amounts'to at least 90% of the entire alloy, and in which the gold is between about 0.46% and about 10% of the combined silver and gold constituent, and metals other than silver and gold in said resistance wire being below 10% of the whole alloy.
  • An electrical resistance element of an electrical resistance thermometer said element being in the form of a wire composed of an alloy having electrical conductivities similar to that of metallic platinum at various given temperatures within the temperature range for which the thermometer is calibrated, such resistance wire being 'formed of an alloy containing at least 90% of silver and gold and in which the amount of gold is between about 0.46% and about 10% of the total gold and silver present.
  • An electrical resistance element of an electrical resistance thermometer composed of an alloy containing about 99.51% of silver and about 0.46% of gold.

Description

t atentec l ii HQB S @tto Feussner, Hanau-on-the-ltiain, Germany assignor to firm W, 6. iilcraeus, G. as. b. H llianau-on-the-lllain, Germany, a corporation oi Germany No Drawing. Application August 26, 1931, Serial hie. 559,6tll. in Germany AugustZii, 19%
i Claims.
My invention relates to alloys, and more particularly to-alloys suitable to be used as a material for the resistance wires of electrical thermometers.
5; For the measurement of low and medium temperatures for a long time electrical measuring instruments have been in use, these instruments being especially of the type in which the variation or" the electrical resistance of a wire as a to function of the temperature is used for the measurement of the latter.
In order to permit easy exchange of the resistance wires and their use in connection with different electrical thermometers, it is necessary M5 that the temperature-coefiicient of the electrical conductivity of the resistance wire is of a constant value in every wire manufactured for the present purpose. It is known, that of all metals platinum is to be preferred as a material for no resistance wires which serve for the electrical measurement of temperatures, this metal being far'superior to others as regards the degree ofpurity attainable in-a wire as well as regards the possibility of exactly reproducing the electrical properties of a wire in all other piecesof wire to be manufactured. This makes possible the substitution of one wire for another.
Platinum, however, has the disadvantage, that it is possessed of certain properties which freso quently prevent its use in the form of a resistance wire for electrical thermometers. As a drawback in this respect there may be mentioned in the first place the high price of platinum which necessitates to use resistance wires with a diam as eter as small as possible in order to reduce the amount of platinum to a minimum. As a consequence of the small diameter, the strength of the current which may be passed through the wire and therewith through the measuring into strument' will be limited and in addition to this, an increase of temperature may easily arise at other parts of the instrument, this increase of temperature being a cause for wrong indications of the instrument.
For these reasons metals which are cheaper than platinum but otherwise suitable to serve as a resistance wire in electrical thermometers, such as for instance nickel and iron, had been proposed as a material for the resistance wires of to thermometers of this kind, especially with a view of complying with the existing demand as re-= gards an exact and at the same time low-priced electrical thermometer. Resistance wires for electrical thermometers have thus been made 55 from nickel which, besides its property of being (CE. mil-=76) of relatively high resistivity in a chemical way, is possessed of a temperature-coemcient about 40% in excess of that or platinum. The higher temperature-coeflicient of nickel is certainly a feature much to be desired, but owing to the fact, that it can be obtained only with clifficulty with a temperature-coefiicient which is uniform throughout, the value of nickel as a material for resistance wires of electrical thermometers is greatly diminished. 65
Electrical thermometers with a platinum wire asresistance element are being widely used in practice and for this very reason alone it will be greatly desirable to have a resistance wire which consists of some cheaper material perrritting insertion of the wire into all types of existing thermometers and to fully retain the thermometer which had originally been calibrated on the basis of a resistance wire of platinum. In case of using a resistance wire of a metal having 15 a higher temperature-coefficient than platinum in connection with a normal electrical thermometer, that is a thermometer which had originally been calibrated on the basis of a platinum wire, a second resistance wire with a tem- 8i perature-coefficient which is very small with respect to that of platinum had ordinarily been connected in parallel to the former wire, in order to provide a compensation for its higher temperature-coefiicient. By reason of the fact, howas ever, that the temperature-coeflicient of the resistance wire in difierent thermometers could never be made to exactly agree with the ther mometer, it had been necessary to individually adjust the aforementioned second resistance wire W with respect to its temperature-coemcient to attain proper compensation.
This procedure, however, can only be carried out at the expense of time and, besides, did not give a satisfactory result. Moreover, theoretical 5 considerations will show that it is only possible to properly adjust the two resistance wires to attain the desired compensation only for two definite temperature values, while the errorsof indication at intermediate temperatures will increase with increasing interval between said two definite temperature values.
Another possibility of attaining the desired goal consists in using resistance wires of alloys having 105 a temperature-'coemcient which is equal to the temperature-coeficient of the platinum throughout the range of temperatures which come into consideration A resistance wire made or an alloy of this kind may immediately be used in; no
stead of the platinum wire without necessitating any scheme or compensation.
Now, I have found that the aforementioned goal may he arrived at by providing an alloy having components which fulfill a number of conditions. In the first place care must be taken that the components of the alloy in their chosen proportion are completely miscible with each other, that is to say, that said components form miscible crystals; in the second place the distance between the solidus and liquidus melting curves must be as small as possible, and, besides, the curve must be of a conformation indicating that the constituency of the primary crystallization diifers as little as possible from the constituency of the remainder of the fused material. Besides, the components of the alloy must be distinguished by the property that diffusion between the components takes place as easily and as quickly as possible. If care is taken to observe the aforegiven prescription for the characteristics of the components, it is possible to make alloys which are possessed of a, temperature-coeflicient which is constant within wide limits during one and the same process of fusing and which, in addition, is also practically constant during transit from one to another process of fusing. -As an alloy which is especially well suited as a material for resistance wires of elec-' trical thermometers, the combination of gold with silver may be mentioned. By alloying silver with 0.46% of gold there will be obtained an alloy which is possessed of all the forementioned characteristics, viz: having atemperature-coeflicient which is exactly equal to that of the platinum, being suitable for temperatures up to from 300- 400 C.,'quite essentially cheaper than platinum andat the same time possessed of a resistivity in a chemical way suflicient to comply with all requirements to be made in connection with normal electrical temperature measuring instruments.
It is extremely desirable that the alloy in order to be suitable for the present purpose viz: to serve as a resistance wire for electrical thermometers consist to the greatest extent of a single component to which the other, additional components are added in the necessary quantities. In general, the amount of gold is not greater than 10% of the entire alloy. It is desirable to use said other or additional components in quantities not substantially greater than 10% of the entire alloy, because in this case the formation of the alloy will take place relatively easily. From the above, it will be seen that the silver is always by far the major part of the alloy. The gold is not substantially more than 10%, and the other metals not more than 10% of the .entire alloy. Thus the gold is between about 10/90 and OAS/99.54 of the silver. The other metals are between 0 and about 10% of the entire alloy. For this reason it is preferable to use as the main component of the alloy an element which according to the present state of the art may easily be produced in condition of greatest purity. The term wire as used herein, is not intended to be limited to a metal piece having any'particular shape of cross-section.
I claim:
1. An electrical resistance element of an electrical resistance thermometer, said element being in the form of a wire composed of an alloy having an electrical conductivity similar to that of metallic platinum at various given temperatures within the temperature range for which the thermometer is calibrated, such resistance wire being formed of an alloy containing silver and gold as its characteristic constituents, in which the ratio of silver to gold is between 90:10 and 99.541046, any metals other than silver and gold in said resistance wire being below 10% of the whole alloy.
2. An electrical resistance element of an electrical resistance thermometer, said element being in the form of a wire composed of an alloy having electrical conductivities similar to that of metallic platinum at various given temperatures within the temperature range for which the thermometer is calibrated, such resistance wire being formed of an alloy containing silver and gold alloy as its characteristic constituent in which alloy the silver and gold together amounts'to at least 90% of the entire alloy, and in which the gold is between about 0.46% and about 10% of the combined silver and gold constituent, and metals other than silver and gold in said resistance wire being below 10% of the whole alloy.
3. An electrical resistance element of an electrical resistance thermometer, said element being in the form of a wire composed of an alloy having electrical conductivities similar to that of metallic platinum at various given temperatures within the temperature range for which the thermometer is calibrated, such resistance wire being 'formed of an alloy containing at least 90% of silver and gold and in which the amount of gold is between about 0.46% and about 10% of the total gold and silver present.
4. An electrical resistance element of an electrical resistance thermometer, composed of an alloy containing about 99.51% of silver and about 0.46% of gold.
OTTO F'EUSSNER.
US559601A 1930-08-26 1931-08-26 Electrical resistance thermometer Expired - Lifetime US1970084A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE1970084X 1930-08-26

Publications (1)

Publication Number Publication Date
US1970084A true US1970084A (en) 1934-08-14

Family

ID=7817237

Family Applications (1)

Application Number Title Priority Date Filing Date
US559601A Expired - Lifetime US1970084A (en) 1930-08-26 1931-08-26 Electrical resistance thermometer

Country Status (1)

Country Link
US (1) US1970084A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2440691A (en) * 1945-03-07 1948-05-04 Continental Carbon Inc Alloy metal film resistor
US3981724A (en) * 1974-11-06 1976-09-21 Consolidated Refining Company, Inc. Electrically conductive alloy

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2440691A (en) * 1945-03-07 1948-05-04 Continental Carbon Inc Alloy metal film resistor
US3981724A (en) * 1974-11-06 1976-09-21 Consolidated Refining Company, Inc. Electrically conductive alloy
US4069963A (en) * 1974-11-06 1978-01-24 Consolidated Refining Company, Inc. Electrically conductive alloy

Similar Documents

Publication Publication Date Title
US3267733A (en) Thermometer
US2098650A (en) Temperature measuring system
KR101286346B1 (en) Thermocouple extension wire
US1970084A (en) Electrical resistance thermometer
US2466202A (en) Compensating lead for thermocouples
US1608872A (en) Temperature compensation
Braudaway Behavior of resistors and shunts: with today's high-precision measurement capability and a century of materials experience, what can go wrong?
US2205306A (en) Electrical apparatus
US2712563A (en) Thermoelectric element
US3328209A (en) Noble metal thermocouple having base metal compensating leads
US3833145A (en) Quick-responding thermometer
US2130829A (en) Electrical measuring instrument
US2470051A (en) Electrical impedance filament and the method of making same
US1896193A (en) Constant resistivity alloy
US2317018A (en) Electrical resistor of thermostatic laminated metal
US2213339A (en) - thermal metering apparatus
US2264073A (en) Temperature compensating resistor and method of making the same
US1626691A (en) Resistor alloy
US1671490A (en) Bimetal element
US606033A (en) Ftnesses
US1858415A (en) Alloy
SU1068736A1 (en) Thermocouple compensating wire
US1495795A (en) Hjxjhouse electric
US1652556A (en) Bimetallic thermostat material
Hyde et al. The gold-point palladium-point brightness ratio